JP6814097B2 - Agricultural mulch film - Google Patents

Description

The present invention relates to an agricultural mulch, and more specifically, an agricultural mulch having a density and strength equivalent to that of polyethylene, excellent workability for spreading in a field, exhibiting a mulch effect during a crop cultivation period, and decomposing after harvesting. Regarding film.

As for agricultural mulch film, the production of polyethylene resin began in Japan in the 1955's, and the polyethylene film was spread over the fields to significantly improve the growth of crops from the function of keeping soil warm, moisturizing, and improving fertilizer effect (so-called mulch effect). Brought about and spread dramatically to agricultural land.

With the widespread use of polyethylene mulch films in the fields, polyethylene is a chemically stable resin, and it has become a problem that it remains undecomposed in the natural environment.

In Heisei, the production of some biodegradable resins began in Japan and overseas, and it was also applied to agricultural mulch films.

Japanese Unexamined Patent Publication No. 5-39381

The density of biodegradable resin is higher than that of polyethylene, and the weight of biodegradable resin mulch film is heavier, which makes it difficult for aging farmers in Japan to handle when spreading in fields.

Furthermore, it is difficult to control the degradability, and depending on the conditions of the field, it may be decomposed during the cultivation period, or it may remain in the field without being decomposed even after the cultivation is completed.

Patent Document 1 attempts to add starch to control the degradability of a biodegradable resin composed of polylactic acid. However, starch has a high density, the film becomes heavier, and the film becomes more easily torn, resulting in agricultural mulch. There was room for improvement as a film.

Therefore, an object of the present invention is to provide an agricultural mulch film which has the same density and strength as polyethylene, has excellent workability for spreading in a field, exhibits a mulch effect during a crop cultivation period, and decomposes after harvesting. ..

Further, other problems of the present invention will be clarified by the following description.

The above problems are solved by the following inventions.

1. 1.
It consists of a biodegradable resin film containing 10 wt% to 40 wt% starch, 2 wt% to 20 wt% glycerin, and 2 wt% to 20 wt% carbon black in a biodegradable polyester resin.
Agricultural multi-film, wherein the density of the biodegradable resin film is ^{0.75g / cm 3 ~1.1g / cm 3} .
2. 2.
The agricultural mulch film according to 1 , wherein the carbon black is a masterbatch composed of the biodegradable polyester resin and carbon black.

According to the present invention, it is possible to provide an agricultural mulch film which has the same density and strength as polyethylene, is excellent in workability to spread in a field, exhibits a mulch effect during a crop cultivation period, and decomposes after harvesting.

Hereinafter, embodiments for carrying out the present invention will be described in detail.

Agricultural mulch films are used to cover the ground during crop cultivation and create a favorable environment for crop growth.

Agricultural mulch film for the present invention, density of a biodegradable resin film is ^{0.75g / cm 3 ~1.1g / cm 3} .

The density of the biodegradable film conventionally used exceeds 1.2, but the agricultural mulch film of the present invention has a density of 0.75 g / cm ^{3 to} 1.1 g / cm ³ and is made of polyethylene. Equivalent to film.

According to such an agricultural mulch film, it has the same density and strength as polyethylene, has excellent workability for spreading in a field, exhibits a mulch effect during a crop cultivation period, and exhibits an effect of decomposing after harvesting.

Density of agricultural mulch film of the present invention, is to be equivalent to polyethylene, the density of the multi-film made of normal polyethylene, where it is normally 0.910 to 0.935 g / cm ³ or so, for agricultural present invention the density of multi-film, since it is as 0.75g ^/ cm ³ ~1.1g ^/ cm 3 of the above, it can be said to be equivalent.

Further, regarding the strength, it can be evaluated to be equivalent to polyethylene because it has enough strength and elongation to withstand the machine used for stretching. Regarding this, in the present invention, in Examples described later, the stretchability of whether or not the film was torn during the stretching work of the agricultural film was evaluated. In the examples, it has been confirmed that the film of the present invention does not tear during the stretching operation, and that it is equivalent to a mulch film made of polyethylene.

In a preferred embodiment, the biodegradable resin film is formed by molding a material obtained by blending starch, glycerin and carbon black with a biodegradable polyester resin into a film shape. As a result, it is possible to impart a density and strength substantially equal to those of polyethylene to an agricultural mulch film made of a biodegradable resin film. It is presumed that the reason why such an effect is obtained is that voids are formed around the starch and the density is reduced. The test revealed that this decrease in density was not accompanied by a decrease in strength.

Examples of the biodegradable polyester resin include aliphatic polyesters such as polycaprolactone, polyethylene succinate, polybutylene succinate, polybutylene succinate adipate, polybutylene adipate, polyhydroxybutyrate, polyester carbonate, and polyhydroxybutyrate. And aliphatic aromatic polyester copolymers can be used, to which starch, glycerin and carbon black are blended.

The blending amount of starch is preferably 10 wt% to 40 wt%, the blending amount of glycerin is preferably 2 wt% to 20 wt%, and the blending amount of carbon black is based on the total weight of the biodegradable resin film. It is preferably 2 wt% to 20 wt%. By setting these blending amounts, the effect of weight reduction due to the decrease in density and the effect of improving the strength can be more preferably compatible with each other.

When blending starch and glycerin into a biodegradable polyester resin, starch and glycerin may be individually blended directly into the biodegradable polyester resin, but it was obtained by mixing starch and glycerin in advance. It is preferable to mix the mixture with the biodegradable polyester resin. By using the mixture, the effect of the present invention can be more satisfactorily exhibited by improving the uniformity of the formulation and the like.

When carbon black is blended with the biodegradable polyester resin, carbon black may be blended directly with the biodegradable polyester resin, but a master batch containing carbon black is blended with the biodegradable polyester resin ( It is preferable to mix it with the base resin). The masterbatch can be obtained by mixing carbon black with a biodegradable polyester resin similar to the biodegradable polyester resin used as the base resin. The carbon black contained in the masterbatch at a high concentration is diluted and mixed after blending the masterbatch with the base resin. By using the masterbatch, the effect of the present invention can be more satisfactorily exhibited by improving the uniformity of the formulation and the like.

As the additive that can be contained in the agricultural mulch film, various additives used in the agricultural film, such as an antioxidant, an antiblocking agent, and a lubricant, can be used.

The method for molding an agricultural mulch film made of a biodegradable resin film is not particularly limited, and for example, an inflation molding method, a T-die molding method, or the like can be used.

Examples of the present invention will be described below, but the present invention is not limited to such examples.

1. 1. Production of Agricultural Mulch Film (Example 1)
First, a masterbatch (hereinafter, also referred to as carbon black masterbatch) was prepared by blending a high concentration of carbon black with a biodegradable polyester resin (“GSP AZ91TN” manufactured by Mitsubishi Chemical Corporation) similar to that used as a base resin. ..

Next, carbon black masterbatch, starch, and glycerin were blended with the base resin to obtain a film composition. Starch and glycerin were mixed in advance and blended into the base resin as a mixture. At this time, the composition of the film composition was 50 wt% of the base resin, 30 wt% of starch, 10 wt% of glycerin, and 10 wt% of carbon black.

Using the film composition, a roll-wound agricultural mulch film having a thickness of 20 μm, a width of 950 mm, and a length of 400 m was prepared by an inflation molding method.

The specific gravity and weight of the obtained agricultural mulch film are as shown in Table 1. Here, the weight includes the weight of the roll paper tube (the same applies to Example 2 and Comparative Examples 1 and 2 described below).

(Example 2)
An agricultural mulch film was obtained in the same manner as in Example 1 except that the base resin was 77 wt%, starch was 10 wt%, and glycerin was 3 wt% in the film composition of Example 1.

(Comparative Example 1)
In the film composition of Example 1, an agricultural mulch film was obtained in the same manner as in Example 1 except that the base resin was 60 wt% and the addition of glycerin was omitted.

(Comparative Example 2)
An agricultural mulch film was obtained in the same manner as in Example 1 except that the base resin was 10 wt%, starch was 60 wt%, and glycerin was 20% in the film composition of Example 1.

(Comparative Example 3)
An agricultural mulch film was obtained in the same manner as in Example 1 except that the base resin was 84 wt%, starch was 5 wt%, and glycerin was 1% in the film composition of Example 1.

(Comparative Example 4)
An agricultural multi-film was obtained in the same manner as in Example 1 except that the formulation of the carbon black masterbatch was omitted and the film composition was 60 wt% for the base resin, 30 wt% for starch, and 10 wt% for glycerin in Example 1. It was.

(Comparative Example 5)
A commercially available black polyethylene film was used as an agricultural mulch film.

2. 2. Evaluation method (1) Stretchability (strength)
A 25 m long ridge was made in the field with a tractor, and the agricultural mulch films obtained in Examples and Comparative Examples were spread on the ridge, and the spreadability was evaluated according to the following evaluation criteria.
〔Evaluation criteria〕
○: Agricultural mulch film was not torn during extension work ×: Agricultural mulch film was torn during extension work

(2) Weeds The agricultural mulch films obtained in Examples and Comparative Examples were spread on the ridges, the state of weeds after 30 days was observed, and weeds were evaluated according to the following evaluation criteria.
〔Evaluation criteria〕
○: No weeds △: Some weeds grew ×: Weeds are overgrown

(3) Cultivation effect (sensory test)
The agricultural mulch films obtained in Examples and Comparative Examples were spread on the ridges, and sweet potatoes were planted and cultivated on the ridges. The harvested sweet potatoes were eaten by 50 subjects, the answers about the taste were aggregated, and the cultivation effect was evaluated according to the following evaluation criteria.
〔Evaluation criteria〕
○: 11 to 50 people answered that it was delicious △: 5 to 10 people answered that it was delicious ×: 0 to 4 people answered that it was delicious

(4) Degradability The ridges after harvesting sweet potatoes according to the above "(3) Cultivation effect" were cultivated with a tractor to crush the agricultural mulch film and plow it into the soil. Then, the crushed fragments of the agricultural mulch film were observed, and the degradability was evaluated according to the following evaluation criteria.
〔Evaluation criteria〕
◯: Agricultural mulch film began to decompose in about 10 days ×: Even one month after the plow, the agricultural mulch film did not decompose sufficiently and large fragments remained (Comparative Example 3). ) Or, the decomposition of the agricultural mulch film did not proceed and remained as it was (Comparative Example 5).

3. 3. From the evaluation table 1, it was shown that the agricultural mulch film of the present invention has the same density and strength as polyethylene. The mulch film of the present invention is light and can be spread in the field without any problem, exerts a mulch effect during the cultivation period, can cultivate high quality crops, and decomposes quickly after cultivation, which is a burden on the agricultural worker. It turns out that it reduces.

Claims (2)

It consists of a biodegradable resin film containing 10 wt% to 40 wt% starch, 2 wt% to 20 wt% glycerin, and 2 wt% to 20 wt% carbon black in a biodegradable polyester resin.
Mulch films for agricultural you wherein the density of the biodegradable resin film is ^{0.75g / cm 3 ~1.1g / cm 3} . The agricultural multi-film according to claim 1, wherein the carbon black is a masterbatch composed of the biodegradable polyester resin and carbon black.